N. A. Sadovskii scite author profile

N. A. Sadovskii

5Publications

46Citation Statements Received

5Citation Statements Given

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Affiliations

Lomonosov Moscow State University, Russian Academy of Sciences

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Exciplex mechanism of fluorescence quenching in polar media

et al. 1993

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The formation of exciplexes (non-emitting or poorly emitting) is suggested as one of the causes for deviations of experimental data on fluorescence quenching in polar solvents from the classical model of excited-state electron transfer yielding radical ion pairs. Several evidences for the formation of such exciplexes were found for fluorescence quenching of aromatic compounds by weak electron donors and acceptors. For cyano-substituted anthracenes exciplex emission can be observed in the presence of quenchers even in polar solvents. In other systems, indirect evidences of exciplex formation were observed: nonlinear dependence of the inverse value of excited pyrene lifetime oa the concentration of the quencher; very small and, in some cases, even negative experimental activation energies of pyrene fluorescence quenching, which are much less than activation energies, calculated from the experimental values of the quenching rate constants etc. The proposed model explains the difference between theoretical and experimental dependencies of log kQ vs. Gibbs energy of electron transfer AGeT and other experimental features known for fluorescence quenching by electron donors and acceptors. This model states that the exciplex is in equilibrium with the encounter complex and apparent quenching rate constants are controlled by two main factors-the lifetime of the exciplex and the enthalpy of its formation. Experimentally observed dependence of apparent quenching rate constant on AGET is caused by the dependence of the eXciplex formation enthalpy on AGET, which is quite different from the dependence of electron transfer activation energy on AGET predicted Joy the theoretical models. Simulations of the dependencies of log kQ vs. AGEv according to the exciplex formation model confirms its agreement with the experimental data. Electronic structure of the exciplex involved maylbe close to contact radical-ion pair only at AGEv < 0, when the rate of quenching is limited mainly by the diffusion, but for AGET > 0, the structure of the exciplex should be much less polar.

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Mechanism of the phototransfer of electrons from zinc porphyrins to carbon tetrachloride in glassy matrices

et al. 1981

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Set of luminescence pressure sensors for aerospace research

Troyanovsky

Sadovskii

Kuz’min

et al. 1993

Sensors and Actuators B: Chemical

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Temperature effects on radical ion and triplet quantum yields in excited-state electron transfer reactions of 1,12-benzperylene in acetonitrile

Sadovskii

Kuz’min

Görner

et al. 1998

Chemical Physics Letters

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Fluorescence of pyrene intramolecular excimers in Langmuir-Blodgett films

Sadovskii¹,

Shirov²,

Kuzmin³

et al. 1991

Thin Solid Films

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N. A. Sadovskii

Exciplex mechanism of fluorescence quenching in polar media

Mechanism of the phototransfer of electrons from zinc porphyrins to carbon tetrachloride in glassy matrices

Set of luminescence pressure sensors for aerospace research

Temperature effects on radical ion and triplet quantum yields in excited-state electron transfer reactions of 1,12-benzperylene in acetonitrile

Fluorescence of pyrene intramolecular excimers in Langmuir-Blodgett films

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